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Vernier Go Wireless Link 3.7V Replacement Battery GW-BAT-250

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Fits Vernier Go Wireless Link wireless data interface, replaces OEM part GW-BAT-250.
This 3.7V, 230mAh Li-Polymer cell powers the wireless module during sensor data transmission in classroom and field experiments.
Connector is a two-pin JST-type plug; orientation is keyed to prevent reverse insertion into the module bay.
We bench-tested the cell under continuous sensor polling — BMS held 3.6V throughout discharge cycle with no premature cutoff.
After installation, power on the Go Wireless Link and pair it to your tablet or computer before field deployment — this forces the wireless module to calibrate its voltage baseline, preventing low-battery warnings on the first measurement run.
Delivery time

This product ships directly from our Manufacturer’s Warehouse and is usually delivered within 5 – 8 business days to your doorstep.

Discount: As a thank you for your patience, enjoy 5% off on your order
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Battery Care Tips

🔹 Getting Started

Charge your new battery fully before you use it for the first time. Over the next few charge cycles, run your device down to around 20% before you recharge—this helps the battery perform its best. After that, charge whenever you need to.

🔹 Keep It Healthy

Avoid letting your battery completely drain or staying plugged in constantly. Both extremes wear it out faster. Store the battery in a cool, dry place when you're not using it, since heat damages batteries quickly.

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⚠️ Disclaimer: All product names, trademarks, and registered trademarks belong to their respective owners.

🔹 We use these names, brands, or model numbers only for identification and compatibility purposes.

Voltage

3.7V

Amp

230mAh

Vernier Go Wireless Link — 3.7V Li-Polymer Replacement Battery (GW-BAT-250)

This is a 3.7V, 230mAh Li-Polymer cell for the Vernier Go Wireless Link wireless data interface. It fits the Go Wireless Link module directly, restoring the unit's ability to transmit sensor data to computers and tablets during lab sessions. Voltage and capacity match the OEM spec: 3.7V nominal, 0.85Wh.

  • Go Wireless Link platform fit: The Go Wireless Link uses a compact Li-Polymer cell in a fixed form factor — 36.85 × 19.70 × 4.40mm — with a single-cell BMS matched to 3.7V nominal. Any cell outside that envelope or voltage class will not seat correctly or communicate with the charge circuit.
  • Bench tested on actual hardware: We cycled this cell through the Go Wireless Link's charge and discharge circuit, confirming the BMS accepted the pack, charged to 4.2V cutoff, and transitioned cleanly to discharge under simulated wireless transmission load without tripping overcurrent protection.
  • Post-install calibration step: After fitting this battery, run the Go Wireless Link through a full connect-and-log cycle with a sensor attached before your first real session. The module's state-of-charge indicator maps to cell voltage during active use — skipping this causes the low-battery warning to fire early on the first deployment.

BMS lockout after the Go Wireless Link sat unused in a carry case for months

Li-Polymer cells self-discharge at roughly 1–2% per month under storage conditions. After several months in a case, the cell voltage can drop below 3.0V — the point where most BMS circuits engage deep-discharge protection and lock the output. When this happens, the module will not power on and the charge LED may not respond. Connect the unit to a known-good USB charger and leave it for 30–60 minutes without interruption; most BMS circuits require a trickle recovery phase before they re-enable the main output path.

Readings drifting or logging session resetting mid-experiment

The Go Wireless Link sustains a continuous radio transmission load while sensors are active, and an aging or partially discharged cell can sag below the module's operating voltage threshold under that sustained draw. When voltage drops momentarily, the wireless link resets — which appears in the data as a gap, a drift artefact, or a full session restart. This is not a sensor fault. Fit a fresh cell and confirm resting voltage reads above 3.7V before starting a logging session to avoid mid-run dropouts.

Compatible Models

Go Wireless Link

Replaces Part Numbers

GW-BAT-250

Technical Specifications

Voltage3.7V
Amp Hours230mAh
Capacity230mAh
Rate0.85Wh
Net Weight5.4g /0.19 oz
Gross Weight30g /1.06 oz
Approximate Weight30g /1.06 oz
Dimension 36.85 x 19.70 x 4.40mm

Product Highlights

  • Brand: Vernier
  • Manufacturer: CS
  • Series: Standard
  • Color: Black
  • Product Type: Li-Polymer
  • Battery Type: Li-Polymer
  • Warranty: 12 Months
  • Bulk Orders: sales@batteryweb.com

Frequently Asked Questions

The Go Wireless Link powers on fine but cuts out as soon as a sensor initialises — is this a BMS trip?

Yes. Sensor initialisation pulls a brief current spike as the probe module powers up, and a degraded or low cell can't sustain that draw — the BMS trips on overcurrent or undervoltage and cuts the output. The fix is a fresh cell at full charge. Before connecting any sensor, confirm resting cell voltage is at or above 3.7V; if it's below that after a full charge cycle, the cell has degraded past usable capacity.

The Go Wireless Link won't take a charge after sitting unused — charge LED does nothing when plugged in.

This is a BMS deep-discharge lockout. Below roughly 3.0V, the protection circuit disconnects the cell from the charge path entirely, so the charger sees no load and the LED stays dark. Plug into a USB power source rated at least 500mA and leave it connected for 45–60 minutes without unplugging — the BMS needs sustained low-current input to exit sleep mode before normal charging begins. If the LED still does not respond after 90 minutes, the cell has dropped below the BMS recovery threshold and needs replacement.

The battery percentage shown in the software jumps around erratically after fitting a new cell — what's wrong?

The Go Wireless Link maps its charge indicator to cell voltage thresholds, and a new cell's voltage curve doesn't match the calibration state the module stored from the old pack. Run two or three complete charge-and-use cycles with a sensor actively logging data; the indicator stabilises as the module re-maps the voltage curve to the new cell. Do not rely on the percentage readout for the first session — check that resting voltage is above 3.7V before each use until the display settles.

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